Government Regulation No. 232 / 2015 Coll.
Government Regulation on State Energy Concept and on Territorial Energy Concept
Valid
Regulation
Effective from 29.09.2015
Text versions:
29.09.2015
14.09.2015
Zobrazeno prvních 200 z celkem 442 ustanovení tohoto předpisu.
Zobrazit celý předpis →
Pro stažení celého znění použijte tlačítko Stáhnout výše.
232
GOVERNMENT REGULATION
of 20 August 2015
on the State Energy Concept and on the Territorial Energy Concept
The Government orders pursuant to Sections 3 (7) and 4 (9) of Act No. 406 / 2000 Coll., on Energy Management, as amended by Act No. 103 / 2015 Coll.:
Subject matter
This Regulation lays down:
(a) the content and manner of processing of the national energy concept and the content and structure of the material for its processing and evaluation; and
(b) the content and manner of processing the territorial energy concept and the content and structure of the material for its processing and for the processing of the report on its application.
State Energy Concept
(1) The State Energy Concept contains:
(a) an analysis of the state's existing energy system and a determination of the main trends in energy development, energy demand, the applicability of individual primary energy sources, the relative representation of individual primary and secondary energy sources in the energy system, including an analysis of possible future changes in this representation and of energy infrastructure issues;
b) Analysis of the strengths and weaknesses of the energy of the Czech Republic and the opportunities and threats to the energy sector of the Czech Republic,
(c) comprehensive analysis of the external and internal conditions affecting the energy of the Czech Republic in the long term;
(d) the setting of strategic objectives and targets for the whole energy sector, including a percentage representation of individual energy sources within primary and secondary sources with a set maximum and minimum that the energy source can achieve in the target year or sub-years, where appropriate;
(e) the results of the expected energy development of the Czech Republic, using energy modelling aimed at creating and optimising the scenario of future energy system development with regard to the target values set and emphasis on reducing emissions of pollutants and greenhouse gases, increasing energy efficiency, economic efficiency and maximum ecological acceptability;
(f) quantification of indicators of security of supply, competitiveness and sustainability and determination of their targets;
(g) optimisation of the energy development scenario of the Czech Republic and indicators of security of supply, competitiveness and sustainability on the basis of an assessment carried out on the basis of a number of different parameters, the parameters and settings being determined by taking into account the quantified input assumptions and the balanced achievement of strategic objectives;
(h) the sub-development strategies of each energy sector and downstream sector, comprising individual priorities and measures, in relation to optimisation calculations and overall strategic input following the output from energy modelling; and
(i) the procedure and instruments for implementing the State Energy Concept, including a timetable containing the implementation date and the persons responsible for the implementation.
(2) The indicators of security of supply are:
(a) emergency stocks of primary energy sources at values
1. the absolute amount of stocks; and
2. the relative level of stocks,
(b) breakdown of primary energy sources;
(c) breakdown of gross electricity production;
(d) breakdown of imports;
(e) import dependence,
(f) infrastructure security;
(g) self-sufficiency in electricity supply; and
(h) performance adequacy.
(3) The indicators of competitiveness are:
(a) the degree of integration into international networks in terms of
1. available transmission capacity in the export direction; and
2. available transmission capacity in the import direction,
(b) discounted cost of energy security;
(c) the ratio of energy prices on the wholesale market to the average of global competitors;
(d) the final price of electricity at low voltage and high voltage voltage voltage voltage and the final price of natural gas;
(e) share of energy expenditure in total household expenditure;
(f) share of the energy sector in gross added value;
(g) share of energy imports in gross added value;
(h) the total economic added value of the energy sector; and
(i) the balance of trade between energy imports and exports.
(4) The indicators of sustainability are:
(a) the energy performance of gross value added,
(b) environmental impact
1. CO2 emissions;
2. SO2 emissions;
3. NOx emissions,
4. NH3 emissions,
5. emissions of solid pollutants; and
6. emissions of volatile organic substances;
(c) share of the agricultural land used for energy;
(d) share of fossil fuels in primary energy consumption;
(e) the energy performance of gross value added,
(f) share of renewable energy sources in gross final energy consumption;
(g) electricity consumption per capita; and
(h) the share of heat from renewable energy sources and cogeneration in the supply of heat from thermal energy systems.
Territorial Energy Concept
(1) The territorial energy concept includes:
(a) analysis of trends in energy demand, including:
1. an analysis of the areas collecting population and housing data, including the outlook, as well as geographical and climatic data, on the basis of which technical calculations can be carried out and analysis of the production possibilities and scope of energy consumption; and
2. analysis of fuel and energy consumption systems and their claims in subsequent years to determine the structural distribution of fuel and energy consumption systems into the housing, public sector and business sector and to quantify their energy performance;
(b) an analysis of possible sources and modes of energy management, including an analysis of the availability of fuels and energy, which aims to determine the structural distribution of fossil fuels used, renewable and secondary energy sources, and to determine their share and availability in the supply of the area concerned;
(c) an assessment of the usefulness of renewable energy sources, including:
1. the determination of the technical potential of renewable energy sources, taking into account the requirements laid down by the legislation and the analysis of the possibilities for their use, aimed at regional and local objectives and reducing the environmental burden; and
2. an analysis of the possibilities for the use of secondary energy sources in the territory concerned;
(d) an assessment of the economically viable savings involved
1. the determination of the technical potential of energy savings and the possibilities for their implementation for consumption systems in the housing sector, public and business sectors; and
2. the determination of the technical potential of energy savings and the possibilities for their implementation for energy production and distribution systems;
(e) basic objectives within the framework of:
1. the operation and development of thermal energy supply systems;
2. the implementation of energy savings;
3. the use of renewable and secondary energy sources, including energy recovery of waste;
4. electricity generation from cogeneration;
5. reducing emissions of pollutants and greenhouse gases;
6. the development of energy infrastructure;
7. the operation of parts of the electricity system which are disconnected from the rest of the interconnected system but remain under voltage (hereinafter referred to as "the electricity system island"),
8. the development of electricity networks capable of effectively linking the behaviour and actions of the manufacturer, the consumer or the consumer with its own production to ensure an economically efficient and sustainable energy system operated with low losses and high reliability of supply and safety, hereinafter referred to as the "smart network"; and
9. Use of alternative fuels in transport,
(f) instruments for achieving the objectives set;
(g) a solution to the energy management system, which includes:
1. a proposal to ensure economically efficient coverage of the energy needs of the geographical area concerned, while respecting the national energy concept, regional programmes, other strategic documents and regional restrictive conditions, taking into account the reliability of the supply of individual forms of energy; and
2. the definition of alternatives to the technical solution for the development of the energy supply system of the territory concerned, leading to compliance with the requirements set out in the foreseeable development of energy demand within the area covered, the quantification of their effects and entitlements and their evaluation.
(2) Individual variants of the technical solution shall be determined:
(a) the energy balance of the new state;
(b) the investment costs incurred by the proposed technical solution;
(c) operating costs of the energy supply system;
(d) impacts on energy efficiency and energy savings;
(e) requirements for the protection of the agricultural land fund in relation to the construction of energy infrastructure and energy installations; and
(f) impacts on emissions of pollutants and CO2 and on air quality.
(3) Evaluation of variants of the technical solution includes:
(a) the selection of partial decision-making criteria based on the objectives of the State Energy Concept and the objectives of the acquirer of the Territorial Energy Concept;
(b) a risk analysis to assess the level of risk associated with the implementation of the different options for developing the energy supply system in question;
(c) an assessment which shall preferably be carried out on the basis of evaluation methods carried out on the basis of a number of different parameters and risk analysis;
(d) quantification of economic objectives using economic efficiency criteria involving a systemic approach and the use of an economic assessment that takes into account the time value of the money and cost flows generated by the implementation and operation of the option under assessment;
(e) setting out the order of priority for each variant, which shall be carried out in the light of the highest degree of efficiency of achieving the objectives set for the development of the energy supply system in question in order to recommend the most appropriate option; and
(f) the choice of the recommended option of future production, distribution and use of energy within the area concerned by means of multiple criteria respecting in particular economic objectives.
Content and structure of the processing material
(1) The content and structure of the material for the processing and evaluation of the State energy concept are set out in Annex 1 to this Regulation.
(2) The content and structure of the documentation for the processing of the territorial energy concept and its implementation reports are set out in Annex 2 to this Regulation.
Repeal
Government Decree No. 195 / 2001 Coll., laying down details of the content of the territorial energy concept, is hereby repealed.
Efficacy
This Regulation shall enter into force on the 15th day following its publication.
Prime Minister:
Sobotka v. r.
Minister for Industry and Trade:
Ing. Mládek, CSc., v. r.
Příloha č. 1
Annex No 1 to Government Regulation No 232 / 2015 Coll.
Content and structure of the materials for processing and evaluation of the state energy concept
A Documentation for the processing of the state energy concept
1 Operation of electrical and thermal energy sources
The basis for modelling the development of the relative representation of individual primary and secondary sources of energy within the Czech Republic is the view of the operation of individual sources of electricity and heat, compiled on the basis of data obtained from the licence holders for electricity and heat generation, according to the following table:
| Název provozovny podle licence | Zdroj | Plánovaná životnost |
|---|---|---|
2 Planned investment expenditure
The outlook for planned investment costs of energy system operators in five-year sections, based on data obtained from electricity transmission and distribution licence holders, gas transport and distribution and heat distribution, and from oil and production system operators, is the basis for determining the future cost of energy supply.
| Plánované investiční výdaje v pětiletých řezech [tis. Kč] | ||||
|---|---|---|---|---|
| Rok x+5 | Rok x+10 | Rok x+15 | Rok x+20 | Rok x+25 |
B Documentation for processing the evaluation of the state energy concept
The basis for determining the current cost of energy security is an overview of the investment costs incurred by the energy system operators over the past five years, based on data obtained from the licence holders for the transmission and distribution of electricity, the transmission and distribution of gas and the distribution of heat and from the oil and production system operators, as follows:
| Provedené investiční výdaje [tis. Kč] | ||||
|---|---|---|---|---|
| Rok x-4 | Rok x-3 | Rok x-2 | Rok x-1 | Rok x |
Příloha č. 2
Annex No 2 to Government Regulation No 232 / 2015 Coll.
Content and structure of the data for the processing of the territorial energy concept and the content and structure of the data for the processing of the report on its application
A Content and structure of materials for the processing of the territorial energy concept
1 Energy balance
Part of the outputs of the energy management system is the compilation of a simplified territorial energy balance for the initial and final years of the processing period broken down by type of fuel and energy and by sectors of the national economy containing the following tables:
Table 1: Energy balance - resource
| Sektor národního hospodářství | Vsázka na výrobu elektřiny [GJ] | Vsázka na výrobu prodaného tepla [GJ] | Ostatní konečná spotřeba [GJ] | Výroba elektřiny brutto [GWh] | Výroba tepla prodaného [GJ] |
|---|---|---|---|---|---|
| Energetika | |||||
| Průmysl | |||||
| Stavebnictví | |||||
| Doprava | |||||
| Zemědělství a lesnictví | |||||
| Obchod, služby, zdravotnictví, školství | |||||
| Domácnosti | |||||
| Ostatní | |||||
| Celkem |
Entities with a NACE-code CZ- NACE 35 shall be classified in the Energy sector.
Subjects with code CZ- NACE05. 06, 07, 09, 10 to 32 shall be assigned to the industry sector.
Entities with a NACE code 41 to 43 shall be classified in the construction sector.
Entities with a NACE code 49 to 51 shall be classified in the Transport sector.
Entities with a NACE code 01, 02 and 03 shall be classified in the agriculture and forestry sector.
Trade, services, health care, education are to be classified under the NACE code 33, 36 to 39, 45 to 47, 52, 53, 55, 56, 58 to 66, 68 to 75, 77 to 82, 84, 85 to 88, 90 to 96, 99.
Table 2: Energy balance - Consumption
| Sektor národního hospodářství | Spotřeba elektřiny [GWh] | Spotřeba tepla nakoupeného [GJ] |
|---|---|---|
| Energetika | ||
| Průmysl | ||
| Stavebnictví | ||
| Doprava | ||
| Zemědělství a lesnictví | ||
| Obchod, služby, zdravotnictví, školství | ||
| Domácnosti | ||
| Ostatní | ||
| Celkem |
Table 1 shall be processed for all fuels together and separately for each fuel and energy group according to the following breakdown:
• Coal including coke - Brown coal including lignite - Natural gas - Biogas - Biogas - Waste - Liquid fuels - Other solid fuels - Other renewable energy sources including non-fuel sources
The basis for drawing up this simplified energy balance is data processed by the Ministry of Industry and Trade.
2 Electricity consumption
Part of the outputs of the energy management system solution is the anticipated evolution of electricity consumption in the territory, including:
• Expected change in electricity consumption due to the development of the housing sector.
• Expected change in electricity consumption due to public sector development.
• Expected change in electricity consumption due to the development of the business sector.
3 Thermal energy supply systems
The outputs of the solution of the energy management system shall include the anticipated developments in the operation of the thermal energy supply systems on the territory, including:
• Expected operation of individual resources in systems and changes in fuel use in these sources including the use of renewable and secondary energy sources.
• Expected changes in the extent of the use of cogeneration in systems.
• Expected changes in the heat transfer medium in the systems.
• Expected system development due to new construction and connection of existing buildings.
• Assessment of the risks of system breakdown due to customer disconnection.
• Proposed ways and proposals to ensure a controlled system breakdown in case of technical or economic impossibility of maintaining them.
• Expected changes in the use of fuels on the territory due to potential changes in the range of systems.
4 Natural gas consumption
Part of the outputs of the energy management system solution is the anticipated development of natural gas consumption on the territory, including:
• Expected change in gas consumption due to the development of the housing sector and the increase in energy efficiency in that sector.
• Expected change in gas consumption due to the development of the public sector and the increase in energy efficiency in the sector.
• Expected change in gas consumption due to the development of the business sector and increasing the efficiency of energy use in that sector.
5 Renewable and secondary energy sources
The outputs of the energy management system are projected developments in the use of renewable and secondary energy sources in the territory, including:
• Estimated use of the potential of individual technologies for electricity generation over the years of the processing period.
• Expected use of the potential of individual technologies for heat production in each year of processing period.
6 Energy savings
Part of the outputs of the energy management system solution is the anticipated development in the area of energy savings in the territory, including:
• Estimated use of the potential of public-sector energy savings over the years of the processing period.
• Expected use of energy saving potential in heat generation and distribution systems in the heat energy supply systems over the years processed.
• Expected use of energy savings potential in the housing sector over the years processed.
• Expected use of energy savings potential in other sectors of the national economy over the years processed.
7 Emissions and emission of pollutants and CO2 emissions
Part of the outputs of the energy management system is the anticipated evolution of pollutant and CO2 emissions and their impact on air quality in the territory, including:
• Expected change in emissions of essential pollutants and CO2.
• Expected change in compliance with the limits in problematic locations.
8 Safety and reliability of energy supply
The outputs of the energy management system shall include the identification of the risks in the areas of energy security and the reliability of the energy supply and the main outputs from the analysis of the security of alternative fuel and energy supplies in emergency situations, including the determination of the amount of petroleum products for electricity generation to ensure the operation of health and social facilities, safety bodies or components of the integrated rescue system, and, to the extent necessary, critical infrastructure elements, in short-term outages of up to six hours, medium-term outages of 18 hours and long-term outages of over 18 hours.
9 Development of smart networks
The outputs of the solution of the energy management system include anticipated developments in the areas of development and implementation of smart network technologies on the territory.
10 Operation of islands in the electricity system
The outputs of the energy management system are the main outputs of the analysis of the operation of the islands in the electricity system in an emergency situation in the electricity system and of the reconnection of these islands to the electricity system in the absence of such status in order to maintain the priority electricity supply for health and social facilities, safety forces or components of the integrated rescue system and, to the extent necessary, critical infrastructure elements, at least to the extent necessary, at the level of statutory cities.
11 Development of energy infrastructure
The outputs of the solution of the energy management system include identification of the requirements in the field of energy infrastructure development and construction, including the map.
12 Use of alternative fuels in transport
The outputs of the solution of the energy management system include anticipated developments in the use of electricity and natural gas, or other alternative fuels, in local, urban and suburban public transport within the territory.
Alternative fuel means fuel based on non-liquid petroleum products, diesel fuel, diesel fuel, liquefied petroleum gas (LPG).
13 Electrical energy
Sign in for notes, favorites and notifications
Regulation Information
| Citation | Government Decree No. 232 / 2015 Coll., on State Energy Concept and on Territorial Energy Concept |
|---|---|
| Regulation Type | Regulation |
| Author | - |
| Collection | Code of Laws |
| Date of Promulgation | 14.09.2015 |
|---|---|
| Effective from | 29.09.2015 |
| Effective until | - |
| Status | Valid |
The regulation text is for informational purposes only.
Comments 0